SU1144216A1 - Mitral valve prosthesis - Google Patents

Abstract

VALVE HEART OF THE VALVE, containing a supporting frame with struts and three filament-reinforced lobes, distinguished by the fact that, in order to increase the strength and durability of the prosthesis and reduce thrombus formation by optimizing the shape of the valve and arranging its reinforcement, the reinforcement threads are made and: , the frame with the posts is made of the same threads, the prosthesis is covered with a low-modulus polymer, with the central point of the petal closing below the tops of the posts, and the reinforcement threads are located along the geodesic lines on the the surface of the petal is parallel to its free edge. (P

Description

This invention relates to the field of medicine, in particular, to devices for replacing affected heart valves.

The artificial heart valve is known, which contains a locking element and a rigid body with stroke stops of the locking element.

The disadvantage of the known valve is a high trauma to the blood and blood clots,

Also known is a prosthetic heart valve containing a support frame with uprights k of three filament-reinforced lobes.

The petals of this heart valve test are made of silicon rubber and in a fabric. The central point of the three lobes closure in this prosthesis is at the same level with the highest points of attachment of the petals to the uprights. The prostheses of the prosthesis have a spherical shape and a limited length of the free edge of the lobe, which prevents them from entering the aortic sinus when they are opened and squeezing blood out of it. This impairs the washing of the petals and thus significantly increases the possibility of thrombosis. The fabric and high modulus silica rubber with the elastic modulus E 310 KPa used for the petals significantly increases the thickness of the petals and their bending rigidity, which reduces the durability of the valve petals. The fabric is laid in an arbitrary manner and the direction of the threads does not coincide with the main direction of tensile stresses arising in the petals when they are closed, which also leads to their premature destruction. The fastening of the petals to the walls of the perforation or to rigid posts that are not connected with the wall of the aortic sinus does not allow the load to be redistributed from the petals to the wall of the aortic sinus, which significantly increases the tensile stresses in them and reduces their durability.

The aim of the invention is to increase the strength and durability of the prosthesis and reduce thrombus formation by optimizing the shape of the valve and the location of its reinforcement.

This goal is achieved by the fact that in a prosthetic heart valve containing a support frame with racks and

three filament reinforced lobes, a distinctive feature is that the reinforcement filaments are made of polymer, the frame with the posts are made of the same filaments, the prosthesis

covered with a low-modulus polymer, with the central point of closing the petals located below the tops of the posts, and the reinforcement threads are located along geodesic lines on the surface of the petal parallel to its free edge.

Prosthetic heart valve schematically depicted in the drawing.

Prosthetic Heart Valve contains

0 soft woven carcass 1, made as one piece and including a base ring and three legs, petals 2 reinforced with biologically compatible, chemically and enzymatically resistant elastic threads 3, The central point 4 of the closure of the petals is located below the tops of the racks. This makes it possible to form a closure zone of the petals, which provides a hermetic closure and prevents the petals of the valve from turning out at high pressures in the closure phase. The length of the free edge of the petals gives them the opportunity when opening

5 to enter the aortic sinus and create the necessary conditions for washing the petals and the wall of the sinus, thereby reducing thrombus formation. The prosthetic heart valve works as follows. The prosthesis is attached along the ring of the base of the braided skeleton to the ventricular outlet and along the uprights to the aortic sinus. During the period of cardiac bleeding, the valve lobes bend and flow unobstructed. The sine under the action of increasing pressure changes its geometrical dimensions, the legs freely diverge

50 together with the walls of the sinus, without creating a voltage in the anastomosis. During the diastole period, the valve petals tightly collapse. Due to the combined work of racks and petals

55 in the period of closing behind the petals, blood circulation is created, washing its surface and the wall of the sinus, which also reduces the blood clot formation, At the moment of complete closure

pestles in them appear to stretch. Using the prosthesis of the valve voltage due to the difference of the heart will allow to reduce the frequency of pressure in the ventricle of the heart and in the aorthrombosis and improve hemodytic, which are perceived as elastic. the change in comparison with the existing filaments of the petals and is transmitted by 5 prostheses and, consequently, improve the racks and further to the sinus wall. These are immediate and remote results that allow to reduce the stresses of clalepestcation operations into 2–2.5 times and thereby increase the strength and durability of the heart clap pads.

Claims (1)

VALVE OF THE HEART VALVE containing a support frame with three reinforced threads and a> reinforcement, characterized in that, in order to increase the strength and durability of the prosthesis and reduce thrombosis by optimizing the shape of the valve and the location of its reinforcement, the reinforcement threads are made of polymer , the frame with the uprights is made of the same threads, the prosthesis is covered with a low-modulus polymer, while the central point of closure of the petals is below the tops of the uprights, and the reinforcement threads are located along geodesic lines on the surface STI lobe parallel to its free edge. 1 144216